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Feynman Lectures on Gravitation

Feynman Lectures on Gravitation
By David Pines, Fernando B. Morinigo

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The Feynman Lectures on Gravitation are based on notes prepared during a course on gravitational physics that Richard Feynman taught at Caltech during the 1962-63 academic year. For several years prior to these lectures, Feynman thought long and hard about the fundamental problems in gravitational physics, yet he published very little. These lectures represent a useful record of his viewpoints and some of his insights into gravity and its application to cosmology, superstars, wormholes, and gravitational waves at that particular time. The lectures also contain a number of fascinating digressions and asides on the foundations of physics and other issues.Characteristically, Feynman took an untraditional non-geometric approach to gravitation and general relativity based on the underlying quantum aspects of gravity. Hence, these lectures contain a unique pedagogical account of the development of Einstein’s general theory of relativity as the inevitable result of the demand for a self-consistent theory of a massless spin-2 field (the graviton) coupled to the energy-momentum tensor of matter. This approach also demonstrates the intimate and fundamental connection between gauge invariance and the principle of equivalence.

Product Details

  • Amazon Sales Rank: #671780 in Books
  • Published on: 2002-07-15
  • Original language: English
  • Number of items: 1
  • Binding: Paperback
  • 272 pages

Editorial Reviews

Book Info
Based on the in-class lectures of Richard Feynman, this book covers a wide range of topics in physics and provides a window to the thoughts of a brilliant Nobel laureate. From the notes during a course on gravitational physics that Feynman taught at Caltech during the 1962-63 academic year. Softcover.

About the Author
Richard P. Feynman was raised in Far Rockaway, New York, and received his Ph.D. from Princeton. He held professorships at both Cornell and the California Institute of Technology. In 1965 he received the Nobel Prize for his work on quantum electrodynamics. He died in 1988. The late Richard P. Feynman was Richard Chace Tolman Professor of Theoretical Physics at the California Institute of Technology. Feynman made many fundamental contributions to physics, particularly to the fields of quantum electrodynamics, quantum field theory, and particle physics. He is best known for the development of Feynman diagrams and path integrals. Feynman shared the Nobel prize in physics in 1965 for his work on quantum electrodynamics. The late Richard P. Feynman was Richard Chace Tolman Professor of Theoretical Physics at the California Institute of Technology. Feynman made many fundamental contributions to physics, particularly to the fields of quantum electrodynamics, quantum field theory, and particle physics. He is best known for the development of Feynman diagrams and path integrals. Feynman shared the Nobel prize in physics in 1965 for his work on quantum electrodynamics. Brian Hatfield is co-founder and senior research physicist at AMP Research in Lexington, Massachusetts. He has help positions at the University of California, the University of Texas, and Harvard University. He received a Ph.D. in physics from Caltech. David Pines is research professor of physics at the University of Illinois at Urbana-Champaign. He has made pioneering contributions to an understanding of many-body problems in condensed matter and nuclear physics, and to theoretical astrophysics. Editor of Perseus’ Frontiers in Physics series and former editor of American Physical Society’s Reviews of Modern Physics, Dr. Pines is a member of the National Academy of Sciences, the American Philosophical Society, a foreign member of the USSR Academy of Sciences, a fellow of the American Academy of Arts and Sciences, and of the American Association for the Advancement of Science. Dr. Pines has received a number of awards, including the Eugene Feenberg Memorial Medal for Contributions to Many-Body Theory; the P.A.M. Dirac Silver Medal for the Advancement of Theoretical Physics; and the Friemann Prize in Condensed Matter Physics. David Pines is research professor of physics at the University of Illinois at Urbana-Champaign. He has made pioneering contributions to an understanding of many-body problems in condensed matter and nuclear physics, and to theoretical astrophysics. Editor of Perseus’ Frontiers in Physics series and former editor of American Physical Society’s Reviews of Modern Physics, Dr. Pines is a member of the National Academy of Sciences, the American Philosophical Society, a foreign member of the USSR Academy of Sciences, a fellow of the American Academy of Arts and Sciences, and of the American Association for the Advancement of Science. Dr. Pines has received a number of awards, including the Eugene Feenberg Memorial Medal for Contributions to Many-Body Theory; the P.A.M. Dirac Silver Medal for the Advancement of Theoretical Physics; and the Friemann Prize in Condensed Matter Physics. David Pines is research professor of physics at the University of Illinois at Urbana-Champaign. He has made pioneering contributions to an understanding of many-body problems in condensed matter and nuclear physics, and to theoretical astrophysics. Editor of Perseus’ Frontiers in Physics series and former editor of American Physical Society’s Reviews of Modern Physics, Dr. Pines is a member of the National Academy of Sciences, the American Philosophical Society, a foreign member of the USSR Academy of Sciences, a fellow of the American Academy of Arts and Sciences, and of the American Association for the Advancement of Science. Dr. Pines has received a number of awards, including the Eugene Feenberg Memorial Medal for Contributions to Many-Body Theory; the P.A.M. Dirac Silver Medal for the Advancement of Theoretical Physics; and the Friemann Prize in Condensed Matter Physics.

Customer Reviews

A brief review5
The original Feynman's point of view about world is always matter of greatest interest. He deeply investigate, as ever he did, the principles of gravitation theory and beyond.

Fascinating5
This is a wonderful book which shows how a classical field theory like General Relativity can be derived from a quantum field theory. It also points out the extreme difficulty of accomplishing this in the case of gravity and ending up with a consistent, anomaly free theory.

Readers of this book will benefit from familiarity with both quantum field theory and relativity as well as a certain amount of mathematical sophistication. Don't be fooled by the similarity of title to other "Feynman Lectures on..." because this book is based on an upper level graduate physics course and assumes the background of a typical PhD student in physics.

Deep, complex and difficult going but well worth the effort to see the elegance of the connection between General Relativity and QFT.

General relativity as a quantum gauge field theory.5
Feynman gave a series of lectures on gravitation at a graduate seminar at Caltech in 1962. The lectures were recorded and transcribed by Morinigo and Wagner. A very readable introduction on quantum gravity was added by the editor, Brian Hatfield (whose book on quantum field theory and strings, I also recommend.) This is the only book I've seen which develops GR from a quantum field theory point of view. Feynman's lectures show that the GR field equations result from the requirement of gauge invariance under Lorentz transformations for a massless spin-2 field (i.e graviton). This is a more fundamental approach than the usual differential geometric framework and shows what the equivalence principle really means in terms of fundamental symmetries. Highly recommended for a modern field theory viewpoint of GR.